CN115140569B - Intelligent raw material feeding and manufacturing system and method for polyester bottle - Google Patents

Abstract

The invention discloses a raw material intelligent feeding manufacturing system and method of a polyester bottle, comprising an outer frame, wherein a storage hopper is fixed between two sides of the inner wall of the outer frame through a frame block, a transverse plate is fixed between two sides of the inner wall of the outer frame, a quantitative feeding mechanism is arranged between the storage hopper and the transverse plate, a residual material collecting mechanism is arranged on the outer frame, the quantitative feeding mechanism comprises a horizontal pipe arranged below the storage hopper, and an upper pipe is communicated above the surface of the horizontal pipe. According to the intelligent material feeding manufacturing system and method for the raw materials of the polyester bottle, the quantitative material feeding mechanism is arranged, automatic material feeding is convenient, and when the weight of the materials fed each time is the same, the material feeding is stopped, so that quantitative material taking is realized.

Description

Intelligent raw material feeding and manufacturing system and method for polyester bottle

Technical Field

The invention relates to the technical field of polyester bottle production, in particular to a raw material intelligent feeding manufacturing system and method for a polyester bottle.

Background

Polyesters are polymers obtained by polycondensation of polyols and polyacids. Mainly polyethylene terephthalate (PET), and conventionally includes polybutylene terephthalate (PBT) and polyarylate isophthalate thermoplastic resins. Is engineering plastic with excellent performance and wide application. Can also be made into polyester fiber and polyester film. Polyesters include polyester resins and polyester elastomers. The polyester resin in turn includes polyethylene terephthalate (PET), polybutylene terephthalate (PBT), polyarylate (PAR), and the like. Polyester elastomers (TPEEs) are typically polymerized from dimethyl terephthalate, 1, 4-butanediol, and polybutanol, with segments comprising hard and soft segments being thermoplastic elastomers.

When the polyester bottle is produced, the powder raw materials need to be processed, and the following problems exist before processing:

(1) The quantitative taking of raw materials is inconvenient, most of the existing quantitative taking devices are controlled by an automatic program, the use cost is high, and popularization and use are not facilitated;

(2) After getting the material, there is the residual raw materials, inconvenient centralized processing to the residual raw materials, and current processing method is manual processing mostly, and the work load is big and then leads to the treatment effeciency low.

Therefore, the invention provides a system and a method for intelligently feeding and manufacturing raw materials of a polyester bottle, so as to solve the problems.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a raw material intelligent feeding manufacturing system and method for a polyester bottle, which solves the problems that the raw material is inconvenient to quantitatively take, and the existing quantitative taking device is mostly controlled by adopting an automatic program, has high use cost and is not beneficial to popularization and use; after getting the material, there is the residual raw materials, inconvenient centralized processing to the residual raw materials, and current processing method is manual treatment mostly, and the work load is big and then leads to the problem that treatment efficiency is low.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the intelligent material feeding and manufacturing system for the raw materials of the polyester bottle comprises an outer frame, wherein a storage hopper is fixed between two sides of the inner wall of the outer frame through a frame block, a transverse plate is fixed between two sides of the inner wall of the outer frame, a quantitative material feeding mechanism is arranged between the storage hopper and the transverse plate, and a residual material collecting mechanism is arranged on the outer frame;

the quantitative feeding mechanism comprises a horizontal pipe arranged below a storage hopper, an upper pipe is communicated above the surface of the horizontal pipe, the top end of the upper pipe is communicated with the bottom of the horizontal pipe, a lower pipe is communicated below the surface of the horizontal pipe, a cylindrical stop block is slidably arranged on the inner wall of the horizontal pipe, a notch round block is fixed on the inner wall of the horizontal pipe, a reset spring is fixed between the notch round block and the horizontal pipe, a U-shaped frame is fixed at the top of the transverse plate, a balance plate is rotated between two sides of the inner wall of the U-shaped frame, a reset spring is fixed between the bottom of the balance plate and the top of the transverse plate, a limiting plate is fixed at the top of the transverse plate, a pull rope is fixed on the left side of the cylindrical stop block, a guide pulley is fixed on the inner wall of the horizontal pipe, one end of the pull rope is wound by the guide pulley and is fixed with the top of the balance plate, a hollow receiving cylinder is arranged at the top of the balance plate, and an automatic pushing mechanism is arranged on the balance plate;

the automatic pushing mechanism comprises a driving cylinder fixed at the top of the balance plate, the front end of the driving cylinder is fixed with the surface of the hollow receiving cylinder, a vertical block is fixed at the top of the transverse plate, a touch switch is fixed at the top of the vertical block, and the touch switch is electrically connected with the driving cylinder.

Preferably, the surplus material collecting mechanism comprises a piston cylinder and a motor plate which are fixed on the inner wall of the outer frame, a driving motor is fixed in front of the motor plate, a driving shaft is fixed at one end of an output shaft of the driving motor, and a turntable is fixed on the surface of the driving shaft.

Preferably, the inner wall of the piston cylinder slides and has the piston, the top of piston is fixed with the triangular block, the surface rotation of carousel has the pull rod, the pull rod rotates with the triangular block to be connected, the left side the bottom of frame piece is fixed with the absorption cover through the jib, the bottom intercommunication of piston cylinder has the cartridge filter.

Preferably, the inner wall of cartridge filter is fixed with the filter screen, the surface of cartridge filter inlays and is equipped with sealing door, the bottom intercommunication of cartridge filter has the straw, the surface intercommunication of straw has the outlet duct.

Preferably, the surface fixing of straw has the check valve that breathes in, the surface fixing of outlet duct has the check valve that gives vent to anger, the left side of frame has run through and has seted up logical groove, the inner wall in logical groove is fixed with the baffle, the left side of frame is fixed with the material receiving box.

Preferably, the front and the rear of the outer frame are both fixed with extension plates, and an electric conveyor belt is arranged between the tops of the two extension plates.

Preferably, the charging barrels are arranged on the surface of the electric conveyor belt, a plurality of charging barrels are arranged on the surface of the electric conveyor belt, and a plurality of charging barrels are arranged on the surface of the electric conveyor belt at equal intervals.

Preferably, the upper pipe and the lower pipe are positioned on the same vertical plane, and the inner diameter of the upper pipe is smaller than that of the lower pipe.

The invention also discloses a method for the intelligent material feeding manufacturing system of the raw materials of the polyester bottle, which comprises the following steps:

s1, placing powder raw materials in a storage hopper, enabling the raw materials to enter a horizontal pipe through an upper pipe and enter a lower pipe through the horizontal pipe, falling into a hollow receiving cylinder through the lower pipe, enabling a balance plate to rotate anticlockwise along with the increase of the weight of the raw materials, pulling a cylindrical stop block to slide leftwards through a pull rope so as to enable the cylindrical stop block to slowly block the upper pipe, enabling the cylindrical stop block to not continue to discharge after the cylindrical stop block completely blocks the upper pipe, enabling the bottom of the balance plate to be in contact with a touch switch, further enabling a driving cylinder to be started through the touch switch, enabling the driving cylinder to perform one-time expansion work, enabling the hollow receiving cylinder to be separated from the balance plate, enabling the raw materials inside the hollow receiving cylinder to fall into a feeding cylinder, then enabling the balance plate to be in a horizontal state after being limited by a limiting plate under the pulling force of a homing spring, and then repeating the discharging work, and starting an electric conveyor belt to transport the next empty feeding cylinder to a discharging position;

s2, after the cylindrical check block slides leftwards, a part of raw materials are extruded in the horizontal pipe, a driving motor is started at the moment, then a rotary table is driven to rotate through a driving shaft, then a piston is driven to slide up and down in a reciprocating mode through a pull rod and a triangular block, when the piston slides downwards, internal air is discharged through an air outlet pipe and an air outlet one-way valve, the piston slides upwards, external air flows into a filter cylinder through a suction pipe and an air suction one-way valve, raw materials accumulated in the horizontal pipe are sucked out and fall on a guide plate, the raw materials slide into a receiving box through the guide plate, and a part of raw materials enter the filter cylinder and are filtered by a filter screen.

Preferably, the guide plate in the step S2 is disposed obliquely.

Advantageous effects

The invention provides a raw material intelligent feeding manufacturing system and method for a polyester bottle. Compared with the prior art, the method has the following beneficial effects:

(1) The quantitative feeding mechanism comprises a horizontal pipe arranged below a storage hopper, an upper pipe is communicated above the surface of the horizontal pipe, the top end of the upper pipe is communicated with the bottom of the horizontal pipe, a pull rope is fixed on the left side of a cylindrical stop block, a guide pulley is fixed on the inner wall of the horizontal pipe, an automatic pushing mechanism is arranged on a balance plate and comprises a driving cylinder fixed on the top of the balance plate, the front end of the driving cylinder is fixed with the surface of a hollow receiving cylinder, a vertical block is fixed on the top of a transverse plate, a touch switch is fixed on the top of the vertical block, the touch switch is electrically connected with the driving cylinder, and the quantitative feeding mechanism is arranged, so that automatic feeding is facilitated, and when the feeding weights are the same each time, the discharging is stopped, the quantitative feeding is further realized.

(2) The intelligent material feeding manufacturing system and method for the polyester bottle comprises a piston cylinder and a motor plate, wherein the piston cylinder and the motor plate are fixed on the inner wall of an outer frame, a driving motor is fixed in front of the motor plate, a driving shaft is fixed at one end of an output shaft of the driving motor, a turntable is fixed on the surface of the driving shaft, a piston is arranged on the inner wall of the piston cylinder in a sliding mode, a triangular block is fixed on the top of the piston, a pull rod is arranged on the surface of the turntable in a rotating mode, the pull rod is connected with the triangular block in a rotating mode, an absorption cover is fixed on the bottom of the left side frame block through a hanging rod, a filter cylinder is communicated with the bottom of the piston cylinder, a filter screen is fixed on the inner wall of the filter cylinder, a sealing door is embedded on the surface of the filter cylinder, a suction pipe is communicated with the surface of the filter cylinder, an air outlet pipe is communicated with the surface of the suction pipe, and through the arrangement of the residual material collecting mechanism, waste of the raw materials is reduced, manual treatment can be replaced, the working load is reduced, and meanwhile treatment efficiency is improved.

Drawings

FIG. 1 is a perspective view of the structure of the present invention;

FIG. 2 is a schematic view of a partial structure of the present invention;

FIG. 3 is a schematic view of the internal structure of the horizontal tube of the present invention;

FIG. 4 is an enlarged view of a portion of the invention at FIG. 2A;

FIG. 5 is a schematic view of the outer frame structure of the present invention;

FIG. 6 is a schematic view showing a partial structure of the remainder collecting mechanism according to the present invention;

FIG. 7 is a schematic illustration of the connection of a turntable to a piston in accordance with the present invention;

FIG. 8 is a schematic view of a partial structure of the quantitative feeding mechanism of the present invention;

FIG. 9 is a schematic view of a pipette structure of the present invention;

fig. 10 is a schematic view of a filter cartridge structure according to the present invention.

In the figure: 1-outer frame, 2-frame block, 3-storage hopper, 4-cross plate, 5-quantitative feeding mechanism, 51-horizontal tube, 52-upper tube, 53-lower tube, 54-cylindrical block, 55-notch round block, 56-return spring, 57-U-shaped frame, 58-balance plate, 59-return spring, 510-limit plate, 511-pull rope, 512-guide pulley, 513-hollow receiving cylinder, 514-automatic feeding mechanism, 5141-driving cylinder, 5142-vertical block, 5143-touch switch, 6-residue collecting mechanism, 61-piston cylinder, 62-motor plate, 63-driving motor, 64-driving shaft, 65-turntable, 66-piston, 67-triangular block, 68-pull rod, 69-hanging rod, 610-filter cartridge, 611-filter screen, 612-sealing door, 613-614-air outlet pipe, 615-suction one-way valve, 616-air outlet one-way valve, 617-through groove, 618-guide plate, 619-receiving box, 620-suction cover, 7-extension plate, 8-electric conveyor belt, 9-feeding cylinder.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-10, the present invention provides a technical solution: the intelligent material feeding and manufacturing system for the raw materials of the polyester bottle comprises an outer frame 1, wherein a storage hopper 3 is fixed between two sides of the inner wall of the outer frame 1 through a frame block 2, a transverse plate 4 is fixed between two sides of the inner wall of the outer frame 1, a quantitative material feeding mechanism 5 is arranged between the storage hopper 3 and the transverse plate 4, and a residual material collecting mechanism 6 is arranged on the outer frame 1;

the quantitative feeding mechanism 5 comprises a horizontal pipe 51 arranged below the storage hopper 3, an upper pipe 52 is communicated above the surface of the horizontal pipe 51, the top end of the upper pipe 52 is communicated with the bottom of the horizontal pipe 51, a lower pipe 53 is communicated below the surface of the horizontal pipe 51, a cylindrical stop block 54 is slidably arranged on the inner wall of the horizontal pipe 51, the upper pipe 52 is conveniently blocked, a notch round block 55 is fixed on the inner wall of the horizontal pipe 51, a return spring 56 is fixed between the notch round block 55 and the horizontal pipe 51, the cylindrical stop block 54 can automatically reset, a U-shaped frame 57 is fixed at the top of the transverse plate 4, a balance plate 58 is rotatably arranged between two sides of the inner wall of the U-shaped frame 57, a return spring 59 is fixed between the bottom of the balance plate 58 and the top of the transverse plate 4, the balance plate 58 can be conveniently reset quickly, a limiting plate 510 is fixed at the top of the transverse plate 4, the balance plate 58 is conveniently limited, the rotation angle of the balance plate 58 is prevented from being excessively large, a pull rope 511 is fixed on the left side of the cylindrical stop block 54, a guide pulley 512 is fixed on the inner wall of the horizontal pipe 51, a guide pulley 512 has a guide effect on the pull rope 511, one end of the guide pulley 512 passes through the guide pulley 512 and passes through the guide plate 618 and bypasses the top of the guide plate 511, and is fixedly arranged at one end of the balance plate 512;

the automatic pushing mechanism 514 comprises a driving cylinder 5141 fixed on the top of the balancing plate 58, and is electrically connected with an external power supply and controlled by a control switch, the front end of the driving cylinder 5141 is fixed with the surface of the hollow receiving cylinder 513, the caliber of the hollow receiving cylinder 513 is large, the bottom is not sealed, when the bottom is inclined, the falling raw materials of the lower pipe 53 can smoothly enter the inside, the bottom of the falling raw materials contacts with the balancing plate 58, so that the raw materials entering the inside of the falling raw materials cannot be scattered, a vertical block 5142 is fixed on the top of the transverse plate 4, a touch switch 5143 is fixed on the top of the vertical block 5142, after being pressed, the driving cylinder 5141 can be controlled to perform one-time quick expansion work, and the touch switch 5143 is electrically connected with the driving cylinder 5141.

In the embodiment of the invention, the surplus material collecting mechanism 6 comprises a piston cylinder 61 and a motor plate 62 which are fixed on the inner wall of the outer frame 1, a driving motor 63 is fixed in front of the motor plate 62, the driving motor 63 is electrically connected with an external power supply and controlled by a control switch, a servo motor with the model of EDSMTM-2T 110-020A is adopted, one end of an output shaft of the driving motor 63 is fixed with a driving shaft 64, a turntable 65 is fixed on the surface of the driving shaft 64, a piston 66 slides on the inner wall of the piston cylinder 61, the sealing performance of a contact part with the piston cylinder 61 is good, no air leakage phenomenon exists, a triangular block 67 is fixed on the top of the piston 66, a pull rod 68 is rotatably arranged on the surface of the turntable 65, the pull rod 68 is rotatably connected with the triangular block 67, an absorbing cover 620 is fixed on the bottom of the left side frame 2 through a hanging rod 69, a filter cylinder 610 is fixedly arranged on the inner wall of the filter cylinder 610, a sealing door 612 is embedded on the surface of the filter cylinder 610, an internal raw material can be taken out, the bottom of the filter cylinder 610 is fixedly connected with 613, a one-way valve 615 is fixedly arranged on the surface of the suction pipe 613, a one-way valve 615 is fixedly arranged on the left side of the outer frame 1, and a one-way channel 617 is fixedly connected with the left side of the air inlet channel 617, and the air inlet channel is fixedly arranged on the left side of the outer frame 1.

In the embodiment of the invention, the front and the rear of the outer frame 1 are both fixed with the extension plates 7, an electric conveyor belt 8 is arranged between the tops of the two extension plates 7, and the electric conveyor belt is controlled by a stepping motor, wherein the stepping motor is electrically connected with an external power supply and controlled by a control switch.

In the embodiment of the invention, the charging drums 9 are arranged on the surface of the electric conveyor belt 8, the caliber is larger than that of the hollow receiving drum 513, smooth blanking can be realized, a plurality of charging drums 9 are arranged, and a plurality of charging drums 9 are equidistantly arranged on the surface of the electric conveyor belt 8.

In the embodiment of the present invention, the upper tube 52 and the lower tube 53 are located on the same vertical plane, and the inner diameter of the upper tube 52 is smaller than the inner diameter of the lower tube 53.

The invention also discloses a method for the intelligent material feeding manufacturing system of the raw materials of the polyester bottle, which comprises the following steps:

s1, placing powder raw materials in a storage hopper 3, enabling the raw materials to enter a horizontal pipe 51 through an upper pipe 52 and enter a lower pipe 53 through the horizontal pipe 51, enabling the raw materials to fall into a hollow receiving cylinder 513 through the lower pipe 53, enabling a balance plate 58 to rotate anticlockwise along with the increase of the weight of the raw materials, further pulling a cylindrical stop block 54 to slide leftwards through a pull rope 511, enabling the cylindrical stop block 54 to slowly block the upper pipe 52, enabling the cylindrical stop block 54 not to continue to feed after the cylindrical stop block 54 completely blocks the upper pipe 52, enabling the bottom of the balance plate 58 to be in contact with a touch switch 5143, enabling a driving cylinder 5141 to be started through the touch switch 5143, enabling the cylinder 5141 to perform one-time telescopic operation, enabling the hollow receiving cylinder 513 to be separated from the balance plate 58, enabling the raw materials in the hollow receiving cylinder to fall into a feeding cylinder 9, enabling the balance plate 58 to be kept in a horizontal state after being limited by a limiting plate 510 along with the reduction of the weight of the balance plate 58, enabling the balance plate 58 to reset rapidly under the pulling force of a reset spring 59, enabling the lower material to be in the state to be repeatedly used for feeding operation, and enabling an electric conveyor belt 8 to be started to transport the next blank cylinder 9 to be empty to a position to be delivered to the position;

s2, after the cylindrical stop block 54 slides leftwards, a part of raw materials are extruded in the horizontal pipe 51, at the moment, the driving motor 63 is started, the turntable 65 is driven to rotate through the driving shaft 64, the piston 66 is driven to slide up and down through the pull rod 68 and the triangular block 67, when the piston 66 slides downwards, internal air is discharged through the air outlet pipe 614 and the air outlet one-way valve 616, the piston 66 slides upwards, external air flows enter the filter cylinder 610 through the suction pipe 613 and the air suction one-way valve 615, raw materials accumulated in the horizontal pipe 51 are sucked out and fall on the guide plate 618 through intermittent air flows, the raw materials slide into the receiving box 619 through the guide plate 618, and a part of raw materials enter the filter cylinder 610 and are filtered by the filter screen 611.

In the embodiment of the present invention, the guide plate 618 in step S2 is disposed obliquely.

And all that is not described in detail in this specification is well known to those skilled in the art.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a material manufacturing system is thrown to raw materials intellectuality of polyester bottle, includes frame (1), its characterized in that: a storage hopper (3) is fixed between two sides of the inner wall of the outer frame (1) through a frame block (2), a transverse plate (4) is fixed between two sides of the inner wall of the outer frame (1), a quantitative feeding mechanism (5) is arranged between the storage hopper (3) and the transverse plate (4), and a residual material collecting mechanism (6) is arranged on the outer frame (1);

the quantitative feeding mechanism (5) comprises a horizontal pipe (51) arranged below a storage hopper (3), an upper pipe (52) is communicated with the upper side of the surface of the horizontal pipe (51), the top end of the upper pipe (52) is communicated with the bottom of the horizontal pipe (51), a lower pipe (53) is communicated with the lower side of the surface of the horizontal pipe (51), a cylindrical stop block (54) is slidably arranged on the inner wall of the horizontal pipe (51), a notch round block (55) is fixed on the inner wall of the horizontal pipe (51), a reset spring (56) is fixed between the notch round block (55) and the horizontal pipe (51), a U-shaped frame (57) is fixed on the top of the transverse plate (4), a balance plate (58) is rotated between the two sides of the inner wall of the U-shaped frame (57), a homing spring (59) is fixed between the bottom of the balance plate (58) and the top of the transverse plate (4), a limit plate (510) is fixed on the top of the transverse plate (4), a cylindrical stop block (54) is fixed on the left side, a guide pulley (512) is fixed on the inner wall (511), a guide pulley (512) is wound on the top of the hollow pulley (511), one end of the guide pulley (512) is fixed on the balance plate (511), an automatic pushing mechanism (514) is arranged on the balance plate (58);

the automatic pushing mechanism (514) comprises a driving cylinder (5141) fixed at the top of the balancing plate (58), the front end of the driving cylinder (5141) is fixed with the surface of the hollow receiving cylinder (513), a vertical block (5142) is fixed at the top of the transverse plate (4), a touch switch (5143) is fixed at the top of the vertical block (5142), and the touch switch (5143) is electrically connected with the driving cylinder (5141).

2. The intelligent raw material feeding and manufacturing system for the polyester bottle according to claim 1, wherein: the waste collection mechanism (6) comprises a piston cylinder (61) and a motor plate (62) which are fixed on the inner wall of the outer frame (1), a driving motor (63) is fixed in front of the motor plate (62), a driving shaft (64) is fixed at one end of an output shaft of the driving motor (63), and a turntable (65) is fixed on the surface of the driving shaft (64).

3. The intelligent raw material feeding and manufacturing system for the polyester bottle according to claim 2, wherein: the inner wall of piston cylinder (61) slides has piston (66), the top of piston (66) is fixed with triangular block (67), the surface rotation of carousel (65) has pull rod (68), pull rod (68) are connected with triangular block (67) rotation, and the left side the bottom of frame piece (2) is fixed with absorption cap (620) through jib (69), the bottom intercommunication of piston cylinder (61) has cartridge filter (610).

4. A raw material intelligent feeding manufacturing system for a polyester bottle according to claim 3, wherein: the filter cartridge is characterized in that a filter screen (611) is fixed on the inner wall of the filter cartridge (610), a sealing door (612) is embedded on the surface of the filter cartridge (610), a suction pipe (613) is communicated with the bottom of the filter cartridge (610), and an air outlet pipe (614) is communicated with the surface of the suction pipe (613).

5. The intelligent raw material feeding and manufacturing system for the polyester bottle according to claim 4, wherein: the suction pipe is characterized in that an air suction one-way valve (615) is fixed on the surface of the suction pipe (613), an air outlet one-way valve (616) is fixed on the surface of the air outlet pipe (614), a through groove (617) is formed in the left side of the outer frame (1) in a penetrating mode, a guide plate (618) is fixed on the inner wall of the through groove (617), and a receiving box (619) is fixed on the left side of the outer frame (1).

6. The intelligent raw material feeding and manufacturing system for the polyester bottle according to claim 5, wherein: the electric conveyor belt (8) is arranged between the tops of the two extension plates (7).

7. The intelligent raw material feeding and manufacturing system for the polyester bottle according to claim 6, wherein: the feeding cylinders (9) are arranged on the surface of the electric conveyor belt (8), a plurality of feeding cylinders (9) are arranged, and the feeding cylinders (9) are equidistantly arranged on the surface of the electric conveyor belt (8).

8. The intelligent raw material feeding and manufacturing system for the polyester bottle according to claim 7, wherein: the upper pipe (52) and the lower pipe (53) are positioned on the same vertical plane, and the inner diameter of the upper pipe (52) is smaller than that of the lower pipe (53).

9. A method of implementing the intelligent feedstock manufacturing system for polyester bottles according to claim 8, characterized by: the method specifically comprises the following steps:

s1, placing powder raw materials in a storage hopper (3), enabling the raw materials to enter a horizontal pipe (51) through an upper pipe (52) and enter a lower pipe (53) through the horizontal pipe (51), falling into a hollow receiving cylinder (513) through the lower pipe (53), enabling a balance plate (58) to rotate anticlockwise along with the increase of the weight of the raw materials, pulling a cylindrical stop block (54) to slide leftwards through a pull rope (511) so that the cylindrical stop block (54) blocks the upper pipe (52), enabling the cylindrical stop block (54) not to continue to feed after the cylindrical stop block (54) completely blocks the upper pipe (52), enabling the bottom of the balance plate (58) to be in contact with a touch switch (5143), the driving cylinder (5141) is started through the touch switch (5143), the driving cylinder (5141) stretches and contracts once, the hollow receiving cylinder (513) is separated from the balance plate (58), raw materials in the hollow receiving cylinder can fall into the feeding cylinder (9), then the balance plate (58) can be quickly reset under the action of the pulling force of the homing spring (59) and kept in a horizontal state after being limited by the limiting plate (510) along with the weight reduction of the balance plate (58), then the feeding work is repeated, the electric conveyor belt (8) is started, and the next empty feeding cylinder (9) is transported to a blanking position;

s2, after the cylindrical stop block (54) slides leftwards, a part of raw materials are extruded in the horizontal pipe (51), at the moment, the driving motor (63) is started, the rotary table (65) is driven to rotate through the driving shaft (64), the piston (66) is driven to slide up and down through the pull rod (68) and the triangular block (67), when the piston (66) slides downwards, internal air is discharged through the air outlet pipe (614) and the air outlet one-way valve (616), the piston (66) slides upwards, external air flows enter the filter cylinder (610) through the suction pipe (613) and the air suction one-way valve (615), raw materials accumulated in the horizontal pipe (51) are sucked out and fall on the guide plate (618) through intermittent air flows, a part of raw materials slide into the material receiving box (619) through the guide plate (618), and a part of raw materials enter the filter cylinder (610) and are filtered by the filter screen (611).

10. The method of the intelligent feeding and manufacturing system for the raw materials of the polyester bottle, as set forth in claim 9, is characterized in that: the guide plate (618) in the step S2 is obliquely arranged.